IgG antibody glycosylation defines the functional potential of the antibody by delineating the structure of the antibody Fc region and determining which Fc receptors it can bind to in order to recruit effector. Differential IgG glycosylation is known to modulate IgG effector functions and is involved in disease development and progression, representing both a predisposition and a functional mechanism involved in disease pathology.
This 3D model was generated using SGI (Silicon Graphics) Octane IRIX workstation in 2002.
Glycans are information-rich molecules based on complex carbohydrates (sugars or polysaccharides), attached to proteins, lipids and cells.
All 3D models in this collection were generated using SGI (Silicon Graphics) Octane IRIX workstation in 2002.
Glycans are key players for recognition processes within cells, and between them. Understanding the interaction between glycans and bacteria or viruses outside the cell is critical for our body functions, disease presentation, diagnosis and therapeutics development and vaccine.
Glycomics #51_IgG antibody glycosylation 2
- PriceUSD PriceQuantityExpirationFrom
- PriceUSD PriceQuantityFloor DifferenceExpirationFrom
Glycomics #51_IgG antibody glycosylation 2
- PriceUSD PriceQuantityExpirationFrom
- PriceUSD PriceQuantityFloor DifferenceExpirationFrom
IgG antibody glycosylation defines the functional potential of the antibody by delineating the structure of the antibody Fc region and determining which Fc receptors it can bind to in order to recruit effector. Differential IgG glycosylation is known to modulate IgG effector functions and is involved in disease development and progression, representing both a predisposition and a functional mechanism involved in disease pathology.
This 3D model was generated using SGI (Silicon Graphics) Octane IRIX workstation in 2002.
Glycans are information-rich molecules based on complex carbohydrates (sugars or polysaccharides), attached to proteins, lipids and cells.
All 3D models in this collection were generated using SGI (Silicon Graphics) Octane IRIX workstation in 2002.
Glycans are key players for recognition processes within cells, and between them. Understanding the interaction between glycans and bacteria or viruses outside the cell is critical for our body functions, disease presentation, diagnosis and therapeutics development and vaccine.